CH685898A5 - Output circuit for a video adapter of a personal computer with a sync pulse mixer without power - Google Patents

Description

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CH 685 898 A5

description

The invention relates to an output circuit for a video adapter according to the preamble of claim 1.

Display devices form an important part of the periphery of personal computers. The decisive advantage of the display devices is that they enable a real dialogue between the user and the personal computer. In a kind of question and answer change (interactive input and output mode), the clerk can exchange information directly with the personal computer. An area of application for personal computers with display devices is stock exchange and foreign exchange trading. The clerk who works in exchange and foreign exchange trading needs various information for his work, such as current share prices or exchange rates. This information is fed into the personal computer from a central database. This central database is usually not in the same building as the personal computer, but in the building of a company that provides the banks with the necessary data. In this case, the data are transmitted via telephone lines to the corresponding personal computers.

The clerk can now interactively use a keyboard and a screen device to select the data he needs, after which it is displayed on the screen. For example, he can enter the term “US dollar” and the screen will display the current exchange rate of the US dollar.

It is common for banks that the personal computers are not directly on the desk at the workplace, but are located either in the basement or in the mezzanine. As a result, less space is blocked at the workplace and maintenance or data backup of the personal computer is made easier. The disadvantage of this arrangement is that the data must be routed from the personal computer over long distances to the display devices with cables. At distances of over 1.8 meters, coaxial cables must be used for high-quality data transmission. To display data on a display device, the signals which are output by the processor of the personal computer must be processed. This task is performed by so-called graphics cards. VGA cards (video graphics ics adapter cards) are used most frequently today. The transfer principle of these cards is analog. Your adapters (outputs) have 15-pin sockets with the following assignment:

Contact 1:

Signal for red

Contact 6:

Mass for red

Contact 13:

Horizontal synchronization signal

Contact 14:

Vertical synchronization signal

Contact 5:

Mass (digital)

Contact 2:

Signal for green

Contact 7:

Mass for green

Contact 3:

Signals for blue

Contact 8:

Mass for blue

If you take the signals directly from these 15-pin sockets, you need nine lines. To transmit the video signals to a video switch or an RGB monitor, it is essential to reduce the number of lines.

According to the current state of the art, synchronous pulse mixers are known which convert the signals from eight lines in such a way that only three coaxial cables are required for forwarding to an RGB monitor or to a video switch. This is achieved by mixing the horizontal sync pulses, the vertical sync pulses and the green signals on a single coaxial cable. The signals for red and the ground for red are fed directly to another coaxial cable, the signals for blue and the ground for blue directly to a third coaxial cable.

The disadvantage of the known synchronous pulse mixers is that their electronic circuitry requires a separate current source. This means that the space required for these synchronous pulse mixers is very large. The electronic circuit and the power supply are housed in a relatively large housing. An additional mains socket and a corresponding plug are also required to connect these synchronous pulse mixers to the mains.

The invention has for its object to provide an output circuit for a video adapter of a personal computer with a synchronous pulse mixer, which is able to convert the signals of the nine outputs of a VGA card in such a way that only three coaxial cables are necessary for their forwarding and whose electronic circuit does not require an additional power source.

2nd

Claims (3)

5 10 15 20 25 30 35 40 45 50 55 60 65 CH 685 898 A5 The object is achieved with the aid of the inventive training features of claim 1. Advantageous developments of the invention are the subject of the dependent claims. In the synchronous pulse mixer of the proposed output circuit for a video adapter, the electrical energy required by the electronic circuit is branched off directly from the vertical and horizontal synchronizing pulse. This means that an additional power source can be dispensed with and the synchronizing pulse mixer can be made significantly smaller. The only figure shows: Fig. A block diagram of the synchronous pulse mixer without a separate power supply. In the case of the synchronous pulse mixer of the proposed output circuit for a video adapter, the first coaxial cable 16 is connected directly to the VGA output 1 for the signals from red and the VGA output 6 for the ground from red. The VGA output 13 for the horizontal synchronizing pulse, the output 14 for the vertical synchronizing pulse and the output 5 for the corresponding ground are connected to the electronic circuit 20 which mixes the horizontal synchronizing pulse and the vertical synchronizing pulse and up passes on the same line as the signal for green, which comes from the corresponding VGA output 2. The combined signal for the vertical synchronization, for the horizontal synchronization and for green is given to the first line of the second coaxial cable 17. The second line of the second coaxial cable 17 is connected directly to the VGA output 7 for the mass of green. The output 3 of the signal for blue and the output 8 for the ground of blue is connected directly to the third coaxial cable 18. To supply the electronic circuit 20, part of the energy of the vertical synchronizing pulse and the horizontal synchronizing pulse is branched off, rectified and smoothed. The resulting electrical direct current is supplied to the electronic circuit 20. In a preferred embodiment, part of the electrical vertical and horizontal sync pulse is taken directly behind the corresponding VGA output 13, 14 via a line 21, rectified with a diode 22 and smoothed with a capacitor 23. The smoothed direct current from the two synchronizing pulses is fed to the electronic circuit 20 via a common line 24. The electronic circuit 20 for mixing the horizontal and vertical synchronizing pulses is preferably designed as an integrated circuit (IC). The electronics for branching, rectifying and smoothing part of the electrical energy of the horizontal and vertical synchronizing pulses is manufactured in SMD technology. The proposed synchronous pulse mixer has significant advantages over the previously known synchronous pulse mixers. It no longer requires a separate current source for the electronic circuit 20 for mixing the horizontal and vertical synchronizing pulse. As a result, it can be built much smaller than the previously known synchronous pulse mixers. Thanks to this miniaturization, it is no longer necessary to install the sync pulse mixer in the personal computer. It can be connected externally. Furthermore, the proposed synchronous pulse mixer has the advantage that no additional sockets and corresponding plugs have to be provided for its supply. Thanks to the advantages mentioned above, the proposed synchro pulse mixer will meet with great interest. Directory of note numbers 1 VGA output for the signals from red 2 VGA output for the signal from green 3. Output circuit according to claim 1 or 2, characterized by a smoothing capacitor (23) connected via supply terminals of the synchronizing pulse mixer (20), to which the input lines (13, 14) for the synchronizing pulses are each connected via a diode (22). 4th 3 VGA output for the signal for blue 5 VGA output for the mass of the vertical and horizontal sync pulse 6 VGA output for the mass of red 7 VGA output for the bulk of green 8 VGA output for the bulk of blue 13 VGA output for the horizontal sync pulse 14 VGA output for the vertical sync pulse 16 First coaxial cable 17 Second coaxial cable 18 Third coaxial cable 20 Electronic circuit for mixing the vertical and horizontal sync pulse 21 lines for branching off part of the electrical energy of the vertical and horizontal synchronizing pulse 22 diode 23 capacitor 24 line for supplying the smoothed direct current to the electronic circuit claims 1. Output circuit for a video adapter of a personal computer, with a sync pulse mixer, which to reduce the number of lines leading to a screen unit assigned to the personal computer, the sync pulses required to operate the screen unit with ei3 5 10th 15 20th 25th 30th 35 40 45 50 55 CH 685 898 A5 nem mixes the color signals for transmission on the same line, characterized in that the synchronizing pulse mixer is operated with electrical energy which is derived from the synchronizing pulses. 2. Output circuit according to claim 1, characterized in that the energy is derived from the horizontal and the vertical synchronizing pulses.